/* This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #pragma once #include "AP_Radio_config.h" #if AP_RADIO_CYRF6936_ENABLED /* AP_Radio implementation for Cypress 2.4GHz radio. With thanks to the SuperBitRF project See http://wiki.paparazziuav.org/wiki/SuperbitRF This implementation uses the DSMX protocol on a CYRF6936 */ #include "AP_Radio_backend.h" #include "hal.h" #include "telem_structure.h" class AP_Radio_cypress : public AP_Radio_backend { public: AP_Radio_cypress(AP_Radio &radio); // init - initialise radio bool init(void) override; // rest radio bool reset(void) override; // send a packet bool send(const uint8_t *pkt, uint16_t len) override; // start bind process as a receiver void start_recv_bind(void) override; // return time in microseconds of last received R/C packet uint32_t last_recv_us(void) override; // return number of input channels uint8_t num_channels(void) override; // return current PWM of a channel uint16_t read(uint8_t chan) override; // handle a data96 mavlink packet for fw upload void handle_data_packet(mavlink_channel_t chan, const mavlink_data96_t &m) override; // update status void update(void) override; // get TX fw version uint32_t get_tx_version(void) override { // pack date into 16 bits for vendor_id in AUTOPILOT_VERSION return (uint16_t(dsm.tx_firmware_year)<<12) + (uint16_t(dsm.tx_firmware_month)<<8) + dsm.tx_firmware_day; } // get radio statistics structure const AP_Radio::stats &get_stats(void) override; // set the 2.4GHz wifi channel used by companion computer, so it can be avoided void set_wifi_channel(uint8_t channel) override { t_status.wifi_chan = channel; } private: AP_HAL::OwnPtr dev; static AP_Radio_cypress *radio_singleton; void radio_init(void); void dump_registers(uint8_t n); void force_initial_state(void); void set_channel(uint8_t channel); uint8_t read_status_debounced(uint8_t adr); uint8_t read_register(uint8_t reg); void write_register(uint8_t reg, uint8_t value); void write_multiple(uint8_t reg, uint8_t n, const uint8_t *data); enum { STATE_RECV, STATE_BIND, STATE_AUTOBIND, STATE_SEND_TELEM, STATE_SEND_TELEM_WAIT, STATE_SEND_FCC } state; struct config { uint8_t reg; uint8_t value; }; static const uint8_t pn_codes[5][9][8]; static const uint8_t pn_bind[]; static const config cyrf_config[]; static const config cyrf_bind_config[]; static const config cyrf_transfer_config[]; virtual_timer_t timeout_vt; static thread_t *_irq_handler_ctx; void radio_set_config(const struct config *config, uint8_t size); void start_receive(void); // main IRQ handler void irq_handler(void); // IRQ handler for packet receive void irq_handler_recv(uint8_t rx_status); // handle timeout IRQ void irq_timeout(void); // trampoline functions to take us from static IRQ function to class functions static void irq_handler_thd(void* arg); static void trigger_irq_radio_event(void); static void trigger_timeout_event(virtual_timer_t* vt, void *arg); static const uint8_t max_channels = 16; uint32_t last_debug_print_ms; void print_debug_info(void); AP_Radio::stats stats; AP_Radio::stats last_stats; enum dsm_protocol { DSM_NONE = 0, // not bound yet DSM_DSM2_1 = 0x01, // The original DSM2 protocol with 1 packet of data DSM_DSM2_2 = 0x02, // The original DSM2 protocol with 2 packets of data DSM_DSMX_1 = 0xA2, // The original DSMX protocol with 1 packet of data DSM_DSMX_2 = 0xB2, // The original DSMX protocol with 2 packets of data }; enum dsm2_sync { DSM2_SYNC_A, DSM2_SYNC_B, DSM2_OK }; // semaphore between ISR and main thread HAL_Semaphore sem; // dsm config data and status struct { uint8_t channels[23]; enum dsm_protocol protocol; uint8_t mfg_id[4]; uint8_t current_channel; uint8_t current_rf_channel; uint16_t crc_seed; uint8_t sop_col; uint8_t data_col; uint8_t last_sop_code[8]; uint8_t last_data_code[16]; uint32_t receive_start_us; uint32_t receive_timeout_msec; uint32_t last_recv_us; uint32_t last_parse_us; uint32_t last_recv_chan; uint32_t last_chan_change_us; uint16_t num_channels; uint16_t pwm_channels[max_channels]; bool need_bind_save; enum dsm2_sync sync; uint32_t crc_errors; float rssi; bool last_discrc; uint8_t last_transmit_power; uint32_t send_irq_count; uint32_t send_count; uint16_t pkt_time1 = 3000; uint16_t pkt_time2 = 7000; uint8_t tx_firmware_year; uint8_t tx_firmware_month; uint8_t tx_firmware_day; int8_t forced_channel = -1; uint8_t tx_rssi; uint8_t tx_pps; uint32_t last_autobind_send; bool have_tx_pps; uint32_t telem_send_count; uint8_t tx_bl_version; } dsm; struct { mavlink_channel_t chan; bool need_ack; uint8_t counter; uint8_t sequence; uint32_t offset; uint32_t length; uint32_t acked; uint8_t len; enum telem_type fw_type; uint8_t pending_data[92]; } fwupload; // bind structure saved to storage static const uint16_t bind_magic = 0x43F6; struct PACKED bind_info { uint16_t magic; uint8_t mfg_id[4]; enum dsm_protocol protocol; }; struct telem_status t_status; // DSM specific functions void dsm_set_channel(uint8_t channel, bool is_dsm2, uint8_t sop_col, uint8_t data_col, uint16_t crc_seed); // generate DSMX channels void dsm_generate_channels_dsmx(uint8_t mfg_id[4], uint8_t channels[23]); // setup for DSMX transfers void dsm_setup_transfer_dsmx(void); // choose channel to receive on void dsm_choose_channel(void); // map for mode1/mode2 void map_stick_mode(uint16_t *channels); // parse DSM channels from a packet bool parse_dsm_channels(const uint8_t *data); // process an incoming packet void process_packet(const uint8_t *pkt, uint8_t len); // process an incoming bind packet void process_bind(const uint8_t *pkt, uint8_t len); // load bind info from storage void load_bind_info(void); // save bind info to storage void save_bind_info(void); bool is_DSM2(void); // send a 16 byte packet void transmit16(const uint8_t data[16]); void send_telem_packet(void); void irq_handler_send(uint8_t tx_status); void send_FCC_test_packet(void); // check sending of fw upload ack void check_fw_ack(void); // re-sync DSM2 void dsm2_start_sync(void); // check for double binding void check_double_bind(void); // setup a timeout handler void setup_timeout(uint32_t timeout_ms); }; #endif // AP_RADIO_CYRPRESS_ENABLED